DE1281502B - CIRCUIT ARRANGEMENT FOR SUPPRESSING THE SWITCH-ON NOISE OF A DIODE-TUNED RADIO RECEIVER - Google Patents

Description

Circuit arrangement for suppressing the switch-on noises of a Diode-tuned high-frequency receiver The invention relates to a circuit arrangement to suppress the switch-on noise of a diode-tuned high-frequency receiver, fed by a power supply device with a time constant will.

So must z. B. from a mains operated power supply device The tuning voltage supplied for the capacitance diodes must be very carefully screened, in order to exclude interference modulation of the received high-frequency signals. the the high time constant resulting from this requirement and caused by the sieve means the tuning voltage is preferably made during the switch-on process noticeable when the receiver is already ready to receive, although the tuning voltage has not yet reached its final value, so that transmitting stations run through for a short time and thus become unintentionally audible.

Therefore, the receiver should remain locked until the tuning voltage has reached its final value.

Circuits have become known which have delay devices (e.g. thermal switches or relays) certain units of the receiver after switching on Block safely until the tuning voltage has been set, taking into account all operational and the possible scatter in the receiver has reached its final value.

The object of the invention is to overcome this disadvantageous dependency from the mentioned operating conditions. It is solved in that in such a diode-matched receiver, the diodes of which are the respectively required Obtain reverse DC voltage from the wiper at least one potentiometer, the A DC voltage is fed from the supply part, and this DC voltage as well fed via a differentiating element to the input electrode of an auxiliary transistor whose output potential is the working point of one with its output electrode galvanically connected amplification transistor in the sense of a blocking for the duration the switch-on process.

The invention is explained in more detail with reference to the figure: A line leads from the power supply device 1 to point 2, to which the potentiometer 3 is connected, from whose wiper 4 the tuning voltage for the capacitance diode 5 is taken, which is in a tuning circuit, not shown, of the receiver is arranged. A differentiating element consisting of the capacitor 6 and the resistor 7 is connected to the point 2, from which the control voltage for the base of the auxiliary transistor 10 is taken at the point 8 via the limiting resistor 9. The emitter of this transistor is at the reference potential, its collector is connected via the limiting resistor 11 to the point 12, the z. B. is connected to the base voltage divider, not shown, of an amplifier transistor in the receiver. As a result of the control voltage at the base of the auxiliary transistor 10, which is dependent on the DC voltage that builds up on the potentiometer 3 after switching on, the auxiliary transistor is initially opened. It influences the base voltage divider of the amplifier transistor connected to its collector in such a direction that the amplifier transistor is initially blocked. When the tuning voltage at the potentiometer has reached its final value, the auxiliary transistor 10 is blocked, and the base voltage of the amplifier transistor and thus its gain strive towards their operating value, ie the receiver is working.

Claims (2)

Claims: 1. Circuit arrangement for suppressing switch-on noises a diode-matched power supply device with a time constant powered high-frequency receiver, the diodes of which are each required for tuning Obtain reverse DC voltage from the wiper at least one potentiometer, the a DC voltage is fed from the supply part, which is the highest required Voting voltage corresponds to the fact that this DC voltage also via a differentiating element of the input electrode of an auxiliary transistor fed is, the output potential of which is the working point of a its output electrode galvanically connected amplification transistor in the sense a blocking for the duration of the switch-on process. 2. Circuit arrangement according to claim 1, characterized in that the collector of the auxiliary transistor (1ü) galvanically with the base of an amplifying transistor of the high-frequency receiver connected is.